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From: Archimedes Plutonium on 23 Jul 2010 16:20 Archimedes Plutonium wrote: > Archimedes Plutonium wrote: > > > > > Here I am asking you a question Lwalk. Where is the factorial 1/2 the > > value of the exponent? > > Is it 249! equal to about 10^498 I think that 10^500 is closer to > > 252! > > > > So that my choice of the Planck Unit of largest number as where the > > StrongNuclear Force > > no longer exists, has a side twist fascination. Why should the number > > where the StrongNuclear Force ceases to exist, why should the > > factorial be exactly 1/2 the value of > > the exponent. This suggests that a mathematical law or rule underlines > > the StrongNuclear > > Force. And that we should thence inspect the Coulomb force as to > > whether a rule of relationship of the factorial with the exponent > > exists for Coulomb force. > > > > Let me clarify my question. I curiously noted that it seems as though > the picking of > 10^500 as the largest significant number in physics as the Coulomb > Interactions where > there is no longer a Nuclear Strong Force of physics existing. And it > is elements 98, 99 > and 100 where the nuclear-strong-force is nonexistent. > > So that is a significant benchmark and since physics ends at that > number, so does mathematics which is a subset of physics. > > So the question becomes, that the value of 253 in 253! is about 1/2 > the value of > the exponent 500 in 10^500. So curiously, and I am super curious about > any science. > I was wondering if there is some physical meaning to why 1/2. Perhaps > a mathematical > rule exists. > > Now I note also that the factorial is not going to give precisely 1/2, > but we can find > the "Smallest difference" or find what can be described as the closest > approach to > equalling 1/2. So in the vicinity of 10^500 we find that the closest > approach is 254! > = 10^502 and 253! = 10^500 where any others has a larger variance. > > Now we ask, can I delete some multipliers or append some multipliers > to the factorial > to have them equal exactly to the relationship of 1/2 factorial value > equals the exponent > value? Really, bizarrely strange. There is a very famous and special number throughout physics called the fine structure constant. It shows up everywhere in physics. So can I delete or append the inverse fine structure constant of the fine-structure constant, either 137 or 1/137 And if I do that to say 253! or 254! then do I achieve this goal of 1/2 exponent value equal to factorial value? Well 254! = 5 x 10^502 and what I want is 10^508 So I would need a 137 x 137 x 137 That is not unreasonable since in the nuclear strong force we usually cube rather than square with distance > > Can I say, multiply the factorial 253! by another 2 or 2x3, to make > the exponent come out > to be exactly or closer to 10^500. > > So I am curious over two items here. Why is the number 253! and 10^500 > the point in > numbers where this relationship of 1/2 is there. And then I am curious > as to whether physics has some force law or force rule of factorial > versus exponent. > > Archimedes Plutonium http://www.iw.net/~a_plutonium/ whole entire Universe is just one big atom where dots of the electron-dot-cloud are galaxies
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